KR200204318Y1 - Destruction by fire device of waste material - Google Patents

Abstract

The present invention relates to a rotary-driven incinerator using air combustion, and in particular, in order to incinerate dehydration cakes or sludges without magnetizing power, the waste is given sufficient magnetization power and the waste is discharged from the top to the bottom in the rotary furnace. It is possible to pyrolysis combustion by combustion, the present invention for this purpose and a hopper for the input of waste; Screw feed means that can be driven connected to the drive motor to increase the quantitative input of the waste from the hopper and the magnetization power; A rotary furnace connected to the distal end of the transfer means so that the waste which has passed through the transfer means is introduced, and including a bucket impeller installed at an inner circumferential surface and a discharge path at a rear outlet; A burner which extends the nozzle into the rotary furnace through the rear portion of the transfer means and has a function of adjusting the temperature in the furnace by a proportional control method by temperature; A driving roller facing the guide band mounted at both ends of the outer circumferential surface of the rotary furnace to support the rotary furnace; A drive gear decelerating so as to cause the drive of the rotary furnace to face the other guide band of the rotary furnace so that the speed can be easily adjusted; A recombustion chamber installed at the rear of the rotary furnace and including a screw conveyor, a supporting burner, and a discharge port of combustion gas while being in communication with the discharge path; And a combustion air inlet tube formed with a plurality of air injection nozzles while being fixed on the center of the rotary furnace through the reburn chamber.

Description

Incinerator for Dry Waste Treatment {Destruction by fire device of waste material}

The present invention relates to a rotationally driven incinerator using air combustion.

More specifically, the present invention is to incinerate dehydration cake or sludge of sewage / wastewater without magnetizing power to increase the calorific value of the waste itself, giving sufficient magnetization power and at the same time using the bucket to remove waste from the top of the bottom. The present invention relates to an incinerator for treating dry waste, which enables pyrolytic combustion by air combustion which is radiated by combustion.

Recently, wastewater treatment facilities pursuant to Article 25 of the Water Quality Preservation Act of the Waste Management Act or Decree of 1999, and sewage treatment facilities pursuant to Article 2 of the Sewerage Act, and discharges of more than 2,000 cubic meters of wastewater per day. The organic sludge of the shop is regulated so that it cannot be buried directly.

Therefore, by incineration, the use of cement-synthetic polymer compounds, or other similar methods, the waste is composted through solidification and biological treatment, or covered by landfill facilities according to separate uses and methods notified by the Minister of Environment. It is also recommended to convert to land reform.

This regulation eventually refers to landfilling through incineration.

Therefore, dehydration cake or sludge, which has a water content of 80%, is dried beforehand by the pre-treatment process according to incineration, and then incinerated using a predetermined treatment facility, thereby minimizing the cause of pollution and economic cost and Consideration should be given to the usefulness of working time.

At this time, the rotary kiln type incinerator similar to the present invention among the conventional incineration treatment means incompletely incinerates the dried waste while rotating the rotor in the required order after injecting the waste into a cylindrical rotor, and then having a fixed grating Incineration is carried out by combustion in a secondary combustion chamber.

In other words, the incineration method as described above is drying and incineration, and the waste is naturally transported to the outlet through the inclined rotating body in the incinerator and then burned while being repeatedly turned upside down by rotation, or the final combustion chamber through incomplete combustion. It contains the problem that it is only completely burned at.

In addition, since the incinerator is open, the efficiency is markedly lacking and the operating cost is excessively implicated.

Unlike the rotary kiln type, the fluidized bed incinerator needs to raise the heated sand and waste to the top by high pressure blowing, so it requires excessive combustion air, and the sand, which is the combustion medium, needs to be heated together to burn together. The situation is a waste of fuel.

Therefore, the incinerator of the present invention was devised to solve the problems of the rotary kiln and the fluidized bed incinerator at the same time. It was conceived to raise the waste to the upper side by driving the rotary furnace and then drop it toward the lower side. The object of the present invention is to realize an excellent efficiency by adopting an air combustion method that allows combustion in a space radially falling from the top to the bottom without the requirement.

The present invention for achieving the above object and a hopper for the input of dry waste; Screw feed means provided directly below the hopper is connected to the drive motor to be driven at an arbitrary rotation speed to increase the quantitative input of the waste and the magnetization power; A rotary furnace connected to the distal end of the transfer means so that the waste which has passed through the transfer means can be introduced, and having a bucket impeller installed at a predetermined interval on the inner circumferential surface and a discharge path of the rear exit; A burner which extends the nozzle into the rotary furnace through the rear part of the transfer unit and has a temperature control function of the rotary furnace in a proportional control method based on temperature according to an external power supply; A plurality of driving rollers facing the guide bands mounted at both ends of the outer circumferential surface of the rotary furnace to support the rotary furnace; A driving gear connected to the driving motor to reduce the speed of the rotary furnace so as to cause the driving of the rotary furnace to face the other guide band of the rotary furnace; A re-combustion chamber installed in the rear of the rotary furnace and including a screw conveyor, an assisting burner, and a discharge port of combustion gas while communicating with the discharge path; And a combustion air inlet tube for injecting combustion promotion air through a plurality of air injection nozzles while being fixed on the center of the rotary furnace through the recombustion chamber.

1 is a side cross-sectional view showing an internal configuration of the incinerator of the present invention.

* Description of the symbols for the main parts of the drawings *

1: Hopper 2,8: Drive motor

3; Transfer means 4: rotary furnace

4a: bucket impeller 4b: discharge path

5: burner 5a: nozzle

6,6a: guide band 7: drive roller

9: Drive Gear 10: Reburn Chamber

11: screw conveyor 12: supporting burner

13: outlet 14: combustion air input pipe

14a: air jet nozzle 100: incinerator

Preferred embodiments of the present invention will become more apparent from the following description with reference to the accompanying drawings.

1 is a side cross-sectional view showing the internal configuration of the incinerator of the present invention, the present invention is a single moisture which can be circulated integrally by interlocking the dryer (not shown) of high moisture content waste and the reburn chamber 10 described later. It is composed of an incinerator 100, it is possible to improve the combustion rate through such a dry matter, the condition of the facility also in charge of a predetermined incineration function through the collection and inflow of pre-dried waste without interlocking with the dryer. It may be freely carried out according to.

The main incinerator 100 is divided into a hopper 1, a waste conveying means 3, a rotary furnace 4 incorporating a burner 5, and a reburn chamber 10.

Hopper (1) is provided for the collection and input of the dried waste, it is located in the horizontal direction directly below the drive having a reduction ratio of about 60: 1 to be given the proper waste input conditions and sufficient magnetizing power A screw feed means 3 is provided, which is connected to the motor 2 and can be driven at an arbitrary speed by an external control panel.

The conveying means 3 properly blocks the dust scattered through the inlet as the pressure in the rotary furnace 4, which will be described later, is positive, and the amount of incineration required during incineration is changed according to the screw rotation speed and operation and stop. It is for automatic input by setting time, and the waste has very low calorific value, so it has very low magnetization power. Therefore, the high calorie oil is converted to the low calorie waste by ultrasonic decomposition and superheated gas. By generating a magnetization force by mixing it can increase the calorific value, through which the waste itself is burned, the combustion gas is also generated from the inside to enable complete combustion.

There is provided a rotary furnace 4 which is connected to the front end of the transfer means 3 and driven in a horizontal state so that the waste which has passed through the screw crimping transfer means 3 can be introduced while maintaining a strong pressure. (4) is the bucket impeller (4a) that maintains a constant interval to the inner peripheral surface is installed and rotated at an appropriate interval and at the same time pushes up about 20% of the waste loaded to the upper side, and also burned to one end of the rear portion It includes a discharge path (4b) of the pipeline type for the discharge of ash, the installation state can be presented a variety of installation conditions, such as maintaining a constant inclination toward the rear in the horizontal state or horizontal state.

A burner 5 having a temperature raising and adjusting function in the rotary furnace 4 is provided through the rear portion of the transfer means 3, and the nozzle 5a of the burner 5 is positioned in the rotary furnace 4. It is divided into a blower, an ignition plug, and a primary secondary nozzle, and divided into primary and secondary simultaneous combustion and secondary combustion through a proportional control method by temperature, so that it is immediately extinguished at high temperature combustion. The waste of oil is prevented, and the burner 5 as an integrated burner 5 also prevents burnout due to radiant heat and overheating.

A plurality of driving rollers are installed on both ends of the outer circumferential surface of the rotary furnace 4 so that the guide bands 6 are mounted, and the guide bands 6 are seated on the ground or the base to support the rotary furnace 4. (7) to be provided, to maintain sufficient robustness and smooth driveability to bear the load of the rotary furnace (4), as a driving source for causing the driving of the rotary furnace 4 substantially as a rotary furnace ( 4) Drive fully decelerated after being connected to another guide band 6a on the outer circumference and connected to a drive motor 8 adopting a VS control motor so that the speed can be easily adjusted by an external control panel. The gear 9 is provided at the lower end of the rotary furnace 4.

At this time, the main combustion chamber inside the rotary furnace 4 is made of solid refractory to minimize the damage caused by temperature and impact, the radiant heat is radiated to the waste in the lower part by the rotation to help the combustion, the upper part in the heat of the main combustion chamber It accumulates and transfers waste from the bottom to the top to radiate combustion.

In addition, the bucket impeller 4a in the main combustion chamber is installed while maintaining an inclination angle of a predetermined size, and after charging the waste from the lower part by rotation, it freely falls from the upper part to the lower part, and the waste is discharged by the inclined angle. After the transfer to incineration treatment, the incineration residue can be properly discharged by mixing the combustion gas and the residue in the upper transfer drop by the bucket at the outlet.

On the other hand, the re-combustion chamber 10 is installed in the rear exit of the rotary furnace 4, through which the unburned powder and the combustion gas that has undergone the combustion process of the main combustion chamber can be heated to the pyrolysis temperature and exhausted, The unburned powder is given a function of completely burning by dedicating a sufficient combustion time. For this purpose, the exhaust gas and the incineration residue are introduced through the discharge path 4b of the rotary furnace 4 described above.

Residual discharge function can be moved to the re-combustion chamber 10 is mixed with the combustion gas when falling from the upper to the lower through the residue receiver installed in the main combustion chamber, the discharge of the incineration residue through the built-in screw conveyor (11) It is easy to form the combustion air passage and the air ejection port required in the screw shaft to eject the final combustion air of the residue along with cooling the screw.

Of course, in this case the discharge rotation will run for a limited time, and the blowout of air is maintained at homeostasis.

In addition, the supporting burner 12 is a heating burner installed in the reburn chamber 10 in order to completely burn unburned gas, and repeatedly burns and extinguishes according to the set temperature of the combustion chamber to raise the temperature of the exhaust gas to a prescribed value. The discharge port 13 of the combustion gas formed at the upper end of the re-combustion chamber 10 serves as a gas connection passage of a dryer or a gas cooler that interlocks with the present invention as a kind of exhaust duct.

In addition, the combustion air inlet pipe 14 fixed in a horizontal state on the center of the rotary furnace 4 through the reburn furnace 10 forms a plurality of air injection nozzles 14a to promote combustion necessary for incineration. It blows out the air for the incineration and induces a shortening effect in time. It is composed of heat-resistant material and prevents overheating in the furnace by continuous injection of air.

Therefore, the present invention is that the waste transported by the rotation of the rotary furnace 4 is gradually radiated toward the lower side while being lifted upward by the bucket during rotation, which enables combustion in the air. As the combustion state is maintained, high-temperature combustion can be maintained, and unburned ash and combustion ash can be separated and discharged by incineration, and instant combustion is possible by injecting combustion air to minimize the amount of doubling gas. .

In addition, by the configuration of the reburn chamber 10 to simultaneously discharge the combustion gas and the combustion ash, the gas is easy to thermal decomposition, it is possible to extend the reburn time of the combustion ash sufficiently to remove the unburned content contained in the residue.

Therefore, the incineration apparatus of the present invention can facilitate the secondary combustion in the recombustion chamber 10 by simultaneously discharging the combustion gas and the combustion residue through the same outlet, and the incineration of the incineration of the rotary furnace 4 is uniform The distinction between incineration and combustion residues includes the usefulness of suppressing the generation of fines contained in the residue.

In addition, the present invention is to prevent the acceleration and overheating of the combustion by ejecting the combustion air through the shaft of the screw, the high temperature waste heat generated during incineration is sent to the dryer to be utilized as drying heat to efficiently recycle resources and reduce operating costs It includes the advantage that it can be planned.

On the other hand, the present invention has been mentioned only the best embodiment thereof, but is not necessarily limited to this, if it can be carried out without departing from the scope of the claims within the scope of the present invention will be obvious.

Claims (1)

A hopper for inputting dry waste; Screw feed means provided directly below the hopper is connected to the drive motor to be driven at an arbitrary rotation speed to increase the quantitative input of the waste and the magnetization power; A rotary furnace connected to the distal end of the transfer means so that the waste which has passed through the transfer means can be introduced, and having a bucket impeller installed at a predetermined interval on the inner circumferential surface and a discharge path of the rear exit; A burner which extends the nozzle into the rotary furnace through the rear part of the transfer unit and has a temperature control function of the rotary furnace in a proportional control method based on temperature according to an external power supply; A plurality of driving rollers facing the guide bands mounted at both ends of the outer circumferential surface of the rotary furnace to support the rotary furnace; A driving gear connected to the driving motor to reduce the speed of the rotary furnace so as to cause the driving of the rotary furnace to face the other guide band of the rotary furnace; A re-combustion chamber installed in the rear of the rotary furnace and including a screw conveyor, an assisting burner, and a discharge port of combustion gas while communicating with the discharge path; And a combustion air inlet tube for injecting combustion promotion air through a plurality of air injection nozzles while being fixed on the center of the rotary furnace through the recombustion chamber.